Method and system for authenticating a user through typing cadence

ABSTRACT

A system and method for authenticating a user are disclosed. The system and method may use particular measurements, with high statistical powers based on keyboard typing and cadence to produce a way of authentication users which is many orders of magnitude better than existing methods.

RELATED APPLICATIONS/PRIORITY CLAIMS

This application claims priority under 35 USC 120 and claims the benefit under 35 USC 119(e) of U.S. Provisional Patent Application Ser. No. 62/244,502 filed on Oct. 21, 2015 and entitled “Method And System For Authenticating A User Through Typing Cadence” and U.S. Provisional Patent Application Ser. No. 62/244,504 filed on Oct. 21, 2015 and entitled “System And Method For Authenticating A User Through Unique Aspects Of The User's Keyboard”, the entirety of both of which are incorporated herein by reference.

APPENDIX

Appendix A contains an example of a portion of the key action data that may be sent to the authentication component. Specifically, Appendix A contains key event data for a particular user (serial number 1234) and the data may include first key identification data and second key identification data.

FIELD

The disclosure is directed to systems and method for authenticating a user.

BACKGROUND

When any user of a computing device, such as a computer, tablet, or smartphone, accesses an online or networking service, such as banking or a corporate network, either in the office, behind the firewall or remotely, the user will normally go through an AUTHENTICATION procedure, which attempts to verify that the user is who he or she is supposed to be.

Such authentication procedures typically rely on something the user:

-   -   1. Knows, like a password or the answer to a secret question     -   2. Has, such as hardware token or a smartcard     -   3. Is. Fingerprints and iris scans belong in the category.

Most of these techniques have proven vulnerable to the methods of criminals. As a result, losses to cybercrime in the form of stolen accounts, identities and corporate data are growing rapidly from an already large base.

Thus, it is desirable to provide a way to dramatically improve the effectiveness of authentication, i.e. make it near impossible for criminals to use somebody else's login credentials while being very unobtrusive vis-à-vis the correct user.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates an example of an implementation of a keyboard cadence authentication system implemented on a personal computer;

FIG. 2 illustrates an example of an implementation of a keyboard cadence authentication system implemented on a computing device connected to a remote authentication system; and

FIG. 3 illustrates a method for authenticating a user using typing cadence data.

DETAILED DESCRIPTION FO ONE OR MORE EMBODIMENTS

The disclosure is particularly applicable to using keyboard typing cadence to authenticate a user for access to a website or web-service and it is in this context that the disclosure will be described. It will be appreciated, however, that the system and method has greater utility, such as to providing authentication for any situation in which it is desirable to have strong authentication mechanisms. Furthermore, the system and method may be implemented with or in any system that has a keyboard (even a virtual keyboard) and used for authentication.

The weakness of all the above known methods of authentication is that the crucial information can, with relative ease, be copied or stolen. Thus, the base of a good authentication method must rely on something which cannot be copied or stolen. Habits meet these criteria—they have to be mimicked or replayed, both of which require considerable work by the criminal. In addition, certain features can be incorporated to significantly increase the difficulty and work effort for the criminal.

Among candidate habits, typing cadence shows the best potential. It is something virtually everybody does, who is a user in the sense stated above. Most of us type a lot every day. Nowadays, the habit begins forming early and, given that very few take formal typing training, there is little correcting mechanism and everyone develops their own way. Neurophysiologists have long known that people's typing cadence is as unique as our signatures.

The system and method involve measuring particular attributes about a user's typing cadence, sending such measures to a component (that may be part of the same computer that has the keyboard or another remote authentication component/system) where those current measures are compared to an already established profile of this user's typing cadence. For example, the measures may include, but are not limited to, the dwell times and flight times. Dwell times refer to the time a particular key is held down, whereas flight times refer to the time between one key is pushed down and the next key is pushed down. These times are typically measured in Milliseconds (Ms) although certain hardware can measure more precisely than that. The authentication component can profile contains statistical measures for each relevant dwell and flight time, which are compared to the recent sample from the user's device. The authentication component may then calculate a probability measure that the user at the keyboard, who is being measured, is the appropriate user. This probability assessment is then used by the relevant online service or to an Identity and Access Management system at the user's employer or any other system involved in giving the user access to the systems requiring authentication or not.

FIG. 1 illustrates an example of an implementation of a keyboard cadence authentication system 100 implemented as a standalone authentication component hosted on the same computing device. The computing device 102 may be a typical processor based device with a display, memory, persistent storage, communication circuits, a keyboard and the like. For example, the computing device may be a smartphone device, such as an Apple iPhone or Android operating system based device, a server computer, a personal computer (such as shown in FIG. 1), a tablet computer, a laptop computer, a terminal device and the like. In accordance with the disclosure, the keyboard cadence authentication system also may be implemented on any system that has a keyboard, such as a security system in a building and the like. The keyboard may be a plurality of keys that a user interfaces with and may thus include a typical computer keyboard (including a physical keyboard, a virtual keyboard or a keyboard that appears on a touchscreen), a keypad with other numbers, symbols or numbers and other symbols (including a physical keypad, a virtual keypad or a keypad that appears on a touchscreen), a keypad or keyboard that is part of a larger system, such as a security system or other access system. For example, the computing device may be a personal computer or laptop computer that has a physical keyboard on which the typing cadence is measured and used to authenticate the user. In another example, the computing device is a processor based device with a touchscreen that displays a keyboard on the touchscreen and the typing cadence of the user typing is measured. In another example, the computing device may be a security system for a residence or building or other area that has an entry keypad or other keypad and the tying cadence of the user on the keypad is measured.

In the implementation shown in FIG. 1, the system 100 has the computing device 102 that hosts and executes an operating system 106 and a typing cadence component and an authentication component 108 shown integrated together in this example. The system also has a keyboard 104 on which a user types and from which typing cadence data is gathered to try to authenticate the user based on the typing cadence. In certain implementations, the typing cadence component may be integrated into a keyboard.

FIG. 2 illustrates an example of an implementation of a keyboard cadence authentication system 200 implemented on a computing device connected to a remote authentication system. The system operates as described above, but a typing cadence client 204 (synonymous with the client described above) is located on the computing device 102 while the authentication component 202 may be located on a remote authentication system that may be hosted on a server computer, cloud computing resources and the like. In both embodiments, the typing cadence client 204 and the authentication component 202 may each be implemented in software or hardware. When each of the components is implemented in software, each component is a plurality of lines of computer code that are executed by a processor of the computing device to implement the functions described above. When each of the components is implemented in hardware, each of the components may be implemented as a microcontroller, a programmable gate array, and the like.

The typing cadence component 204 may be a piece of software or a piece of hardware that is capable of capturing the typing cadence data of the user when the user types of a keyboard. In some embodiments, the typing cadence component 204 may be a plurality of lines of computer code/instructions that capture the keyboard typing cadence data over existing interfaces that may be executed by a processor of the computing device. In some embodiments, the typing cadence component may be a piece of hardware that is capable to capturing the keyboard typing cadence data over existing interfaces or may be a piece of hardware that is capable of capturing the actual keyboard data (key presses and timestamps) using a sensor and then generating the typing cadence data using a processor, a microcontroller, a field programmable gate array and the like. In other embodiments, the typing cadence component may be a combination of hardware and software that either capture the keyboard typing cadence data over existing interfaces or capturing the actual keyboard data (key presses and timestamps) using a sensor and then generate the typing cadence data.

The authentication component 202 may be a piece of software or a piece of hardware that is capable of receiving the typing cadence data, analyzing the typing cadence data and authenticating a user based on that typing cadence data. In some embodiments, the authentication component may be a plurality of lines of computer code/instructions that receives the typing cadence data, analyzes the typing cadence data and authenticates a user based on that typing cadence data may be executed by a processor of the computing device. In some embodiments, the authentication component may be a piece of hardware that is capable of receiving the typing cadence data, analyzing the typing cadence data and authenticating a user based on that typing cadence data or may be a piece of hardware that is capable receiving the typing cadence data, analyzing the typing cadence data and authenticating a user based on that typing cadence data using a processor, a microcontroller, a field programmable gate array and the like. In other embodiments, the authentication component may be a combination of hardware and software that receives the typing cadence data, analyzes the typing cadence data and authenticates a user based on that typing cadence data.

The typing cadence component 204 or the typing cadence and authentication component 108 may be part of a client that may be installed on the computing device. The typing cadence component 204 or the typing cadence and authentication component 108 may perform the following functions:

-   -   a. Collects typing data from the user's computer     -   b. Stores collected data in memory     -   c. Intermittently, processes the collected data and creates a         table of the typing cadence data. For example, the table may         contain:         -   1. File date         -   2. File time         -   3. Key pairs (equal if a dwell time)         -   4. Any number of actual measures of the particular time     -   d. Communicates the collected data/table to the authentication         component that may be hosted/co-located on the same computer as         the client (see FIG. 1), but may also be sent to an         authentication component on a different computer as shown in         FIG. 2.

The authentication component (that may be hosted on the same computer as the client (see FIG. 1), but may also on a different computer as shown in FIG. 2), may perform the following functions:

-   -   a. Receives data from the client     -   b. Stores collected data in a data storage     -   c. When a user is new to the system, the authentication         component collects data only until it has enough to build a         profile for the particular user     -   d. When the profile has been built, the authentication component         takes sample typing data received from the client and compares         it statistically with the profile and produces the probability         assessment. In some embodiments, the sample typing data may be         all of the typing that has been performed by the user.

Typing Cadence Component and Protocol

A detailed description of the client/typing cadence component and the structure of the data collected and the communication between the client and the server is contained in non-provisional patent application Ser. No. 14/318,477, which is hereby incorporated by reference. The typing cadence component may hook into the operating system of the computing device and tap into the data stream from the keyboard/input device and gathers the clock time data for each key action/event. Each key action/event may be a the pressing of a key (key press) or a releasing of the key (a key release.) The typing cadence component can store this key event data on a persistent storage device of the computing device, such as a hard drive, flash memory, etc., but to greatly enhance security, the preferred embodiment is to store the key event data temporarily in RAM of the computing device. The typing cadence component may intermittently process the data, calculate all the differential timings used later in the process and packages a file it sends to the authentication component. When the differential timings are calculated, as a security measure in some embodiments, the original clock stamps are removed—thus, the order of the characters is removed, making it impossible to put the data back to the original text.

An example of the key action data stream sent to the authentication component is contained in Appendix A that is incorporated herein by reference. Appendix A contains an example of a portion of the key action data stream for a particular user (serial number 1234.) As shown in the Appendix, the data may include first key identification data and second key identification data. Thus, for example “8” represents a particular key being pressed or released while “76” represents another key being pressed or released by the user. In one embodiment, the value for each key that identifies the key may be the well-known ASCII value for the particular key. The data also has one or more time samples (TS1, TS2, . . . , TS10, etc.) that each happen during a time interval when and after the key combination action occurs. In one embodiment, each time sample may be measured in milliseconds. Each row in the data (other than the header row) represents a particular combination of first and second key actions and then time samples relevant to that particular combination of first and second key actions. When a particular row does not contain values for each sample period, the particular combination of first and second key actions has ended and no further key action data about that particular combination of first and second keys is available. In the key action data in Appendix A, when the first and second key identifier are the same (such as in the first row), then the key action data represents a dwell time for the particular key (such as the key represented by the value “8”) which is a time between a key press of the key and a release of the key by the user. As shown in the portion of the data, there are many different time samples for the dwell time for the key. In the key action data in Appendix A, when the first and second key identifier are different (such as “20” and “8” in the second row), then the key action data represents a flight time between a key press of the first key and a key press of the second key. As shown in the portion of the data, there are often fewer time samples for the flight time between the keys. The system may also detect a key event that is a key being pushed down or released by the user. Thus, a dwell time may be determined. The dwell time is a time period between when a given key is being pushed down (pressed by the user) and that same key is released by the user. Thus, the system and method may detect and use both flight time and dwell time. Thus, the typical cadence data from each computing device (and hence each user who uses that computing device) is captured and processed.

In operation, the authentication component 106 may act as an organizer and may unpack the data file for each computing device, may determine to which user the particular computing device relates based on the file header of the particular data file, may convert the data from the format it was sent in into a common format, may calculate the profile data for the particular patient and may place the data and profile in the right folder in the data storage.

Authentication Process

Using the system, the user can be authenticated at log in, on an ongoing basis during use of the computer or both:

-   -   1. At log in: the user would be prompted to type a limited         amount of text, prompted by the system. Our research indicates         that about 20 characters of typing would suffice to identify the         user with high probability. This method can also be used when         special circumstances warrant an extra level of security, such         as when a banking customer wants to add a new payee.     -   2. The client software on the user's machine records typing         cadence on an ongoing basis and sends data to the server with a         pre-determined frequency. Every time data is sent, the server         calculates the probability that the data is coming from the         correct user.

Several crucial features make this authentication system far superior in statistical and security performance, as well as user friendliness to any existing method:

-   -   1. Typing data is recorded on an ongoing basis and sent to the         authentication component at regular intervals for comparison         against the user's profile. Thus, the authentication in this         system is continuous, not one single or many disparate events.     -   2. The client employs the standard high-resolution method for         recording the clock time of a particular key event. Such         collection (called ‘native’) is far superior to collection of         data at a web site, where the precision of the data can be         compromised in many ways     -   3. When the client processes the recorded data, it calculates         the elapsed time between key events and stores these elapsed         times in a table. Thus, the actual clock time is not sent to the         server, and the sequence of the typing has been eliminated. This         insures that the data can never be reassembled into the original         text, thereby protecting the privacy of the user.     -   4. The client records the events of pushing a key down and         subsequently releasing it. The client calculates the elapsed         times between key down and key up for a particular key and the         elapsed times between a key down for one key and the next key         down for another key. These calculations are done for each key         and for each possible key pair. This process is followed for all         typing—thus the method measures natural behavior (except at         login, where the typing is prompted), limiting the inconvenience         for the user. In addition, natural behavior produces         statistically stronger results, since the typing is not impaired         by unnatural tasks.     -   5. The client processes the raw key event data and constructs a         table with all possible keys and key pairs going down the left         column and the remaining columns are filled with the actual         elapsed times measured. A user can see this data table, in order         to be assured that it cannot be reconstructed into the original         text.     -   6. The fact that the user is aware that the tying cadence is         being recorded should not impact the quality of the typing         data—numerous studies have shown that this habit is so strong         that it cannot be consciously manipulated or altered.     -   7. These particular measures are incredibly powerful         statistically. Current analysis indicates that the accuracy is         many orders of magnitude better than existing authentication         methods. As typically measured, this method produces 0% false         positives and 0% false negatives.     -   8. The client encrypts the processed data table and sends it to         the server. No data is ever stored on the user's device, because         that would create a vulnerability vis-à-vis the cybercriminals.     -   9. The authentication component provides the client the         encryption key on demand.     -   10. The authentication component can tell the client to produce         and send a data file and start a new recording session.     -   11. The authentication component sends data to the client         regarding the amount of typing the next sample should contain.     -   12. The authentication component may send to the client         particular requirements for sample regarding particular letters.     -   13. The authentication component may also request confirmation         from the client that very recent sample contains a particular         set of letters.     -   14. The authentication component communicates with our         customer's system, be the customer an online service or a         company network, in two ways:         -   a. The authentication component provides the probability             assessments on an ongoing basis         -   b. The authentication component responds to queries             regarding a particular user.

FIG. 3 illustrates a method 300 for authenticating a user using typing cadence data. The method may be performed/implemented by the typing cadence component as well as the authentication component that may be part of the same computer system as shown in FIG. 1, but may also be remote from each other as shown in FIG. 2. When the authentication method begins, the authentication component has already received and stored typing cadence data for a particular user. The particular user is a known user who can gain access to the system once that particular user is authenticated.

When an authentication request is made for the particular user, a predetermined amount of current typing cadence data for the particular user may be received (302) and may be captured by the typing cadence component. The typing cadence data may include a plurality of pieces of key event data, each piece of key event data comprising an elapsed time between when a key is pressed and the same key is released during typing and an elapsed time between when a first key is pressed and a second different key is pressed during typing. The typing cadence data may be communicated from the typing cadence component to the authentication component.

When the current typing cadence data is received by the authentication component, the typing cadence data may be analyzed (304) by the authentication component. The authentication component may compare the stored typing cadence data for the particular user to the current typing cadence data for the particular user to calculate a probability that the current typing cadence data for the particular user is similar to the stored typing cadence data and thus the particular user associated with the current typing cadence data is authenticated as being the same as the particular user of the stored typing cadence data that means that the identity of the particular user is authenticated. In one embodiment, the authentication component may use a well-known statistical t-test that calculates the probability that a new value (in the current typing cadence data) is a part of an existing distribution (in the stored typing cadence data) for each variable (for example, each key event) measured. Since these variables are independent of one another, the statistical power is very high and thus provides a high level of confidence that the particular user being authenticated is or is not the particular user of the system associated with the stored typing cadence data. The method may then, based on the analysis of the typing cadence data, determine whether or not to authenticate the user (306). Thus, the disclosed authentication system and method provides a technical solution (authentication of a user based on typing cadence data that is more secure than typical authentication systems and methods) to the technical problem of insecure authentication processes.

The method here described for authentication is very challenging for criminals. The log in could be vulnerable to so called replay attacks, where the criminal already has penetrated the user's device and records typing cadence data in a fashion similar to the one described here. However, the criminal cannot not know what the authentication component will ask him to type and, once the server makes the request, will have very limited time to assemble a response.

The foregoing description, for purpose of explanation, has been described with reference to specific embodiments. However, the illustrative discussions above are not intended to be exhaustive or to limit the disclosure to the precise forms disclosed. Many modifications and variations are possible in view of the above teachings. The embodiments were chosen and described in order to best explain the principles of the disclosure and its practical applications, to thereby enable others skilled in the art to best utilize the disclosure and various embodiments with various modifications as are suited to the particular use contemplated.

The system and method disclosed herein may be implemented via one or more components, systems, servers, appliances, other subcomponents, or distributed between such elements. When implemented as a system, such system may include and/or involve, inter alia, components such as software modules, general-purpose CPU, RAM, etc. found in general-purpose computers,. In implementations where the innovations reside on a server, such a server may include or involve components such as CPU, RAM, etc., such as those found in general-purpose computers.

Additionally, the system and method herein may be achieved via implementations with disparate or entirely different software, hardware and/or firmware components, beyond that set forth above. With regard to such other components (e.g., software, processing components, etc.) and/or computer-readable media associated with or embodying the present inventions, for example, aspects of the innovations herein may be implemented consistent with numerous general purpose or special purpose computing systems or configurations. Various exemplary computing systems, environments, and/or configurations that may be suitable for use with the innovations herein may include, but are not limited to: software or other components within or embodied on personal computers, servers or server computing devices such as routing/connectivity components, hand-held or laptop devices, multiprocessor systems, microprocessor-based systems, set top boxes, consumer electronic devices, network PCs, other existing computer platforms, distributed computing environments that include one or more of the above systems or devices, etc.

In some instances, aspects of the system and method may be achieved via or performed by logic and/or logic instructions including program modules, executed in association with such components or circuitry, for example. In general, program modules may include routines, programs, objects, components, data structures, etc. that perform particular tasks or implement particular instructions herein. The inventions may also be practiced in the context of distributed software, computer, or circuit settings where circuitry is connected via communication buses, circuitry or links. In distributed settings, control/instructions may occur from both local and remote computer storage media including memory storage devices.

The software, circuitry and components herein may also include and/or utilize one or more type of computer readable media. Computer readable media can be any available media that is resident on, associable with, or can be accessed by such circuits and/or computing components. By way of example, and not limitation, computer readable media may comprise computer storage media and communication media. Computer storage media includes volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital versatile disks (DVD) or other optical storage, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and can accessed by computing component. Communication media may comprise computer readable instructions, data structures, program modules and/or other components. Further, communication media may include wired media such as a wired network or direct-wired connection, however no media of any such type herein includes transitory media. Combinations of the any of the above are also included within the scope of computer readable media.

In the present description, the terms component, module, device, etc. may refer to any type of logical or functional software elements, circuits, blocks and/or processes that may be implemented in a variety of ways. For example, the functions of various circuits and/or blocks can be combined with one another into any other number of modules. Each module may even be implemented as a software program stored on a tangible memory (e.g., random access memory, read only memory, CD-ROM memory, hard disk drive, etc.) to be read by a central processing unit to implement the functions of the innovations herein. Or, the modules can comprise programming instructions transmitted to a general purpose computer or to processing/graphics hardware via a transmission carrier wave. Also, the modules can be implemented as hardware logic circuitry implementing the functions encompassed by the innovations herein. Finally, the modules can be implemented using special purpose instructions (SIMD instructions), field programmable logic arrays or any mix thereof which provides the desired level performance and cost.

As disclosed herein, features consistent with the disclosure may be implemented via computer-hardware, software and/or firmware. For example, the systems and methods disclosed herein may be embodied in various forms including, for example, a data processor, such as a computer that also includes a database, digital electronic circuitry, firmware, software, or in combinations of them. Further, while some of the disclosed implementations describe specific hardware components, systems and methods consistent with the innovations herein may be implemented with any combination of hardware, software and/or firmware. Moreover, the above-noted features and other aspects and principles of the innovations herein may be implemented in various environments. Such environments and related applications may be specially constructed for performing the various routines, processes and/or operations according to the invention or they may include a general-purpose computer or computing platform selectively activated or reconfigured by code to provide the necessary functionality. The processes disclosed herein are not inherently related to any particular computer, network, architecture, environment, or other apparatus, and may be implemented by a suitable combination of hardware, software, and/or firmware. For example, various general-purpose machines may be used with programs written in accordance with teachings of the invention, or it may be more convenient to construct a specialized apparatus or system to perform the required methods and techniques.

Aspects of the method and system described herein, such as the logic, may also be implemented as functionality programmed into any of a variety of circuitry, including programmable logic devices (“PLDs”), such as field programmable gate arrays (“FPGAs”), programmable array logic (“PAL”) devices, electrically programmable logic and memory devices and standard cell-based devices, as well as application specific integrated circuits. Some other possibilities for implementing aspects include: memory devices, microcontrollers with memory (such as EEPROM), embedded microprocessors, firmware, software, etc. Furthermore, aspects may be embodied in microprocessors having software-based circuit emulation, discrete logic (sequential and combinatorial), custom devices, fuzzy (neural) logic, quantum devices, and hybrids of any of the above device types. The underlying device technologies may be provided in a variety of component types, e.g., metal-oxide semiconductor field-effect transistor (“MOSFET”) technologies like complementary metal-oxide semiconductor (“CMOS”), bipolar technologies like emitter-coupled logic (“ECL”), polymer technologies (e.g., silicon-conjugated polymer and metal-conjugated polymer-metal structures), mixed analog and digital, and so on.

It should also be noted that the various logic and/or functions disclosed herein may be enabled using any number of combinations of hardware, firmware, and/or as data and/or instructions embodied in various machine-readable or computer-readable media, in terms of their behavioral, register transfer, logic component, and/or other characteristics. Computer-readable media in which such formatted data and/or instructions may be embodied include, but are not limited to, non-volatile storage media in various forms (e.g., optical, magnetic or semiconductor storage media) though again does not include transitory media. Unless the context clearly requires otherwise, throughout the description, the words “comprise,” “comprising,” and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is to say, in a sense of “including, but not limited to.” Words using the singular or plural number also include the plural or singular number respectively. Additionally, the words “herein,” “hereunder,” “above,” “below,” and words of similar import refer to this application as a whole and not to any particular portions of this application. When the word “or” is used in reference to a list of two or more items, that word covers all of the following interpretations of the word: any of the items in the list, all of the items in the list and any combination of the items in the list.

The above described authentication system and method addresses a technical problem with most typical authentication systems that the typical authentication systems can be outsmarted by a nefarious person. For example, an authentication system using passwords can be overcome by a nefarious person who discovers the password of the user or uses a brute force approach to discover the password. The above described authentication system and method addresses this technical problem by providing a technical solution that is a more secure authentication system and method. Specifically, the above described authentication system and method provides the security because the authentication method and system uses typing cadence data as a type of biometric data that may be used to authenticate the user and authenticates the user (using a authentication component). The authentication using the typing cadence data is the technical solution to the above technical problem of insecure user authentication methods and systems.

Although certain presently preferred implementations of the invention have been specifically described herein, it will be apparent to those skilled in the art to which the invention pertains that variations and modifications of the various implementations shown and described herein may be made without departing from the spirit and scope of the invention. Accordingly, it is intended that the invention be limited only to the extent required by the applicable rules of law.

While the foregoing has been with reference to a particular embodiment of the disclosure, it will be appreciated by those skilled in the art that changes in this embodiment may be made without departing from the principles and spirit of the disclosure, the scope of which is defined by the appended claims.

APPENDIX A Entries 395 Serial 1234 First Key Second Key Press Press TS1 TS2 TS3 TS4 TS5 TS6 TS7 TS8 TS9 TS10 8 8 104 80 104 104 120 176 120 104 144 72 32 8 5632 10079 69 8 1560 79 8 3368 9471 83 8 5232 3279 84 8 1288 87 8 2320 89 8 2296 187 8 1448 13 13 112 88 80 128 88 120 97 112 96 144 32 13 5943 78 13 4408 83 13 3416 190 13 1960 936 1280 22431 4415 17024 191 13 15288 32 32 96 96 88 80 96 96 96 88 71 72 54 32 1280 65 32 2327 168 160 160 232 145 192 66 32 216 67 32 2568 6007 68 32 488 240 3176 144 144 3008 88 3645 1232 112 69 32 160 328 240 224 216 1400 1528 712 152 176 70 32 936 168 160 160 176 144 1312 152 216 136 71 32 416 240 257 936 3328 368 1536 2328 10943 296 72 32 256 224 264 296 1104 1488 75 32 1776 2335 1552 76 32 2431 3424 1128 400 2488 488 1160 1303 77 32 280 1344 2616 78 32 192 192 1767 215 216 496 248 216 296 416 79 32 272 321 320 264 312 288 928 5192 288 256 80 32 4816 496 82 32 1096 135 120 304 424 208 4943 184 126 232 83 32 312 192 2544 2440 1320 3976 2160 192 2344 1600 84 32 360 296 1296 464 416 280 296 280 304 264 85 32 248 87 32 1640 192 2376 7895 400 89 32 4264 856 720 2791 2343 256 280 280 1632 352 186 32 608 480 188 32 256 272 256 192 264 240 208 208 256 240 189 32 976 976 190 32 1440 256 256 264 1472 240 408 568 264 272 37 37 104 80 96 128 104 136 77 37 1856 48 48 96 120 57 48 1160 186 48 328 32 49 2799 49 49 191 129 120 186 49 1695 32 50 592 824 48 50 424 50 50 88 120 96 49 54 273 50 54 320 54 54 96 96 49 57 592 57 57 73 119 32 65 7615 200 584 840 216 832 896 208 208 2135 65 65 88 128 119 120 184 136 168 96 136 168 66 65 216 67 65 216 216 512 392 608 416 464 431 68 65 408 344 69 65 216 288 368 328 616 296 352 424 344 336 70 65 232 288 71 65 368 359 72 65 424 288 480 304 584 424 240 168 400 368 73 65 488 75 65 256 76 65 160 601 631 288 513 77 65 368 423 216 976 352 256 464 336 392 78 65 464 464 79 65 936 80 65 632 464 432 82 65 216 856 560 600 344 360 792 84 65 248 296 288 86 65 424 416 416 400 568 87 65 280 320 432 360 256 32 66 976 264 215 312 256 1112 264 208 1184 264 65 66 160 192 66 66 120 80 72 80 96 72 64 96 88 96 69 66 704 73 66 280 79 66 352 85 66 288 160 66 192 168 159 32 67 240 1568 240 288 351 424 472 4816 840 496 65 67 216 192 448 67 67 72 120 144 144 96 96 72 104 137 160 69 67 304 304 328 73 67 216 392 265 327 352 78 67 248 232 216 216 232 82 67 304 216 83 67 2304 352 272 288 280 312 85 67 288 304 256 256 256 160 67 352 208 189 67 376 32 68 1191 1344 376 68029 1096 65 68 136 344 68 68 120 96 104 88 120 112 120 120 88 96 69 68 336 256 322 328 272 312 320 280 73 68 384 256 240 256 168 76 68 200 424 78 68 360 232 272 256 232 264 256 280 280 280 79 68 304 392 336 304 352 82 68 232 240 288 32 69 232 1888 496 281 864 216 368 488 232 424 66 69 240 232 264 359 232 328 280 240 232 67 69 304 368 272 448 304 352 407 456 312 68 69 240 240 256 216 200 192 232 240 231 216 69 69 96 160 96 104 80 120 144 144 168 80 70 69 392 520 71 69 280 312 368 752 72 69 304 312 320 384 392 856 384 272 208 424 73 69 496 279 2240 232 184 408 288 248 246 264 75 69 344 216 400 192 240 216 288 76 69 344 656 256 344 904 232 77 69 440 256 264 256 240 184 848 216 368 1520 78 69 256 560 416 160 336 416 424 336 344 328 80 69 248 216 208 280 432 82 69 239 224 240 256 224 312 216 232 215 191 83 69 208 240 280 256 232 264 264 289 256 240 84 69 192 384 280 328 264 232 264 86 69 160 280 200 208 240 184 232 376 288 272 87 69 200 352 264 232 241 399 89 69 368 240 288 376 345 160 69 232 216 32 70 384 1760 233 2064 400 1456 360 1816 232 352 65 70 240 68 70 288 69 70 432 1680 70 70 96 64 136 112 88 96 88 95 112 96 73 70 344 272 79 70 336 304 424 304 288 256 328 328 376 368 160 70 256 216 32 71 312 592 305 328 351 65 71 192 192 71 71 88 88 88 72 96 96 96 80 88 112 73 71 400 304 360 312 376 78 71 280 336 264 272 304 312 255 360 384 312 79 71 384 32 72 304 1016 976 5680 328 360 680 1472 304 280 67 72 192 192 312 344 448 551 256 232 208 168 71 72 240 72 72 96 104 88 96 112 64 96 120 72 80 83 72 168 192 216 84 72 264 248 288 216 160 184 200 304 192 272 87 72 256 607 384 200 8 73 2815 408 32 73 464 312 304 1112 504 296 376 360 3136 312 65 73 312 66 73 744 296 67 73 264 264 208 224 280 68 73 303 392 264 280 240 69 73 264 208 344 70 73 400 176 248 256 320 71 73 472 552 4792 72 73 544 432 488 608 73 73 88 88 72 72 80 72 88 96 88 64 75 73 232 304 248 76 73 312 296 240 328 312 296 584 78 73 296 368 519 79 73 216 80 73 288 247 311 82 73 216 432 240 728 376 240 240 256 200 304 83 73 408 312 497 304 217 305 216 344 84 73 528 560 544 552 496 264 536 312 136 632 85 73 536 417 232 86 73 512 87 73 672 639 288 271 160 73 544 352 328 256 344 304 74 74 88 160 74 208 32 75 1120 1992 65 75 248 184 384 352 280 240 67 75 264 424 327 69 75 281 75 75 95 112 80 72 72 104 96 88 96 88 78 75 472 82 75 240 83 75 256 280 230 184 265 32 76 320 512 584 752 544 600 2608 65 76 536 448 264 303 232 408 66 76 512 616 728 400 69 76 352 328 344 360 232 625 904 71 76 648 73 76 360 304 280 486 344 280 75 76 192 76 76 96 96 96 96 96 104 72 96 96 104 78 76 488 79 76 240 216 256 240 80 76 224 247 82 76 152 600 608 83 76 240 84 76 680 85 76 903 560 440 528 32 77 256 344 2376 304 1360 232 560 1696 984 1480 65 77 264 288 216 304 69 77 952 376 264 464 73 77 296 77 77 112 120 136 112 71 96 104 88 48 72 78 77 1352 79 77 400 280 288 312 304 280 328 80 77 880 496 84 77 1912 464 472 760 85 77 320 160 77 608 192 232 376 8 78 2592 32 78 232 248 1536 256 911 296 904 6047 1344 2440 65 78 208 280 568 184 264 264 224 296 144 264 69 78 176 313 352 408 208 256 144 256 184 184 71 78 280 72 78 264 73 78 280 296 328 344 304 288 288 304 248 272 75 78 5880 78 78 96 96 96 72 96 88 96 64 64 48 79 78 400 296 320 288 304 328 328 328 336 328 82 78 96 256 304 83 78 152 85 78 367 249 288 304 240 256 264 280 304 344 87 78 1072 240 8 79 496 32 79 552 1840 408 2599 680 424 368 752 8295 352 67 79 216 512 272 464 256 368 296 280 216 256 68 79 512 69 79 4408 70 79 535 280 264 568 272 264 280 71 79 624 432 72 79 424 656 488 530 496 472 360 73 79 216 208 232 216 216 200 216 216 231 240 76 79 264 296 256 328 224 288 216 77 79 312 536 416 568 336 344 78 79 432 648 376 352 296 328 528 552 760 560 79 79 96 88 96 72 81 96 88 96 96 128 80 79 240 240 1128 240 288 392 82 79 280 424 288 192 240 256 208 256 343 328 83 79 208 384 336 528 312 280 248 544 84 79 304 1071 440 712 256 536 560 344 208 264 86 79 400 376 656 87 79 760 89 79 192 256 240 32 80 872 408 336 512 608 440 728 584 984 945 50 80 1384 54 80 2175 65 80 424 312 69 80 424 328 77 80 312 512 576 78 80 632 79 80 232 1096 680 80 80 88 72 104 80 104 72 95 96 120 104 82 80 216 208 83 80 984 256 232 425 304 85 80 488 512 576 88 80 216 89 80 264 32 81 439 448 81 81 104 120 32 82 856 152 168 136 208 4032 176 192 704 216 65 82 407 192 256 160 240 191 184 200 152 192 66 82 408 67 82 337 68 82 1264 69 82 24 240 280 176 112 248 152 264 168 240 70 82 472 464 71 82 280 305 73 82 280 200 79 82 240 656 249 360 264 672 352 240 329 312 80 82 416 280 360 328 280 336 352 82 82 136 144 104 72 120 144 72 120 120 96 84 82 232 216 85 82 304 328 416 280 232 256 391 232 424 189 82 304 8 83 336 1184 32 83 192 360 232 888 424 256 184 1120 232 192 48 83 4088 65 83 280 240 384 328 296 280 264 66 83 288 69 83 344 256 328 280 240 312 304 288 336 312 73 83 303 368 456 423 610 304 472 224 312 400 78 83 560 1992 424 336 360 1647 279 264 79 83 254 80 83 520 82 83 400 352 176 183 192 216 256 1208 27558 83 83 96 88 96 96 88 136 112 112 112 135 84 83 696 208 192 232 280 464 616 85 83 448 360 232 320 89 83 256 160 83 960 544 222 83 264 496 392 32 84 1016 2160 1608 368 1032 376 232 1520 1360 2680 65 84 280 288 296 216 160 264 224 192 328 240 67 84 488 320 69 84 232 184 144 336 272 160 168 3696 72 84 288 73 84 368 392 1624 744 1880 360 360 303 376 264 76 84 376 78 84 352 432 288 384 512 400 312 320 184 256 79 84 544 232 288 1216 2880 80 84 472 440 82 84 112 83 84 232 88 224 168 120 112 184 120 216 128 84 84 88 112 88 104 88 96 160 112 80 88 85 84 320 264 296 336 376 376 232 328 272 88 84 240 160 84 280 1144 471 126 304 232 207 352 120 280 222 84 376 32 85 472 288 352 360 424 328 1312 984 65 85 296 280 66 85 376 432 520 464 68 85 497 216 256 232 69 85 600 70 85 287 264 224 312 240 176 71 85 520 74 85 257 77 85 328 568 79 85 264 264 304 344 288 359 265 464 288 288 80 85 1632 4200 416 81 85 368 328 82 85 568 320 83 85 264 208 304 84 85 320 280 544 85 85 63 96 96 96 73 120 88 120 80 120 32 86 7847 65 86 232 208 216 257 69 86 144 264 73 86 304 416 360 328 360 351 76 86 376 384 424 78 86 288 288 328 352 288 352 296 352 328 344 79 86 544 392 392 416 400 368 368 86 86 96 88 96 96 112 112 72 112 88 64 8 87 1968 32 87 264 224 888 912 240 184 1024 368 1200 69 87 488 520 496 520 512 272 79 87 400 400 304 760 392 473 82 87 320 84 87 728 87 87 96 64 88 72 72 95 80 120 136 144 160 87 208 240 512 208 209 69 88 304 304 88 88 144 144 32 89 2264 840 3048 417 640 279 65 89 264 232 288 352 463 69 89 496 288 71 89 280 75 89 336 495 76 89 448 480 416 656 464 688 616 392 479 78 89 416 312 82 89 512 84 89 184 168 232 85 89 320 89 89 96 112 112 96 96 88 48 72 95 112 160 89 208 647 8 160 1096 248 312 13 160 2192 57557 7586 1887 2136 18415 6183 68748 18455 2095 32 160 240 864 3096 200 328 1192 208 448 288 632 37 160 7224 49 160 919 50 160 1120 84 160 3760 89 160 1048 4512 160 160 376 392 424 368 384 304 360 288 480 288 160 186 232 320 1080 208 186 186 88 104 80 96 84 187 840 187 187 152 65 188 4112 69 188 4567 71 188 4496 72 188 4720 78 188 2888 82 188 4272 83 188 3016 648 2528 6096 89 188 4760 188 188 72 80 72 72 72 32 72 72 64 80 32 189 497 1416 69 189 1072 87 189 560 189 189 88 96 95 88 8 190 777 65 190 1280 69 190 2632 70 190 3512 71 190 18647 75 190 4576 78 190 3824 3375 18175 82 190 3096 83 190 9464 1832 3144 2352 1088 84 190 3032 58061 89 190 3391 190 190 96 64 71 64 72 72 72 64 80 96 160 191 839 191 191 88 78 222 632 608 84 222 5655 792 222 222 104 104 72 88 

1. A method for authenticating a user using keyboard typing cadence, comprising: receiving typing cadence data for a keyboard used by a person, the typing data including a plurality of pieces of key event data, each piece of key event data comprising an elapsed time between when a key is pressed and the same key is released during typing and an elapsed time between when a first key is pressed and a second different key is pressed during typing; and authenticating the person by analyzing the typing cadence data for the person.
 2. The method of claim 1, wherein authenticating the person further comprising analyzing the typing cadence data for the person to generate an assessment about the authenticity of the person.
 3. The method of claim 1, wherein receiving typing cadence data further comprising receiving the typing cadence data from a remote typing cadence component and wherein authenticating the person further comprising authenticating the person at a backend component remote from the typing cadence component.
 4. The method of claim 2, wherein analyzing the typing cadence data further comprises comparing the typing cadence data for the person to previously stored typing cadence data for the person.
 5. The method of claim 4, wherein comparing the typing cadence data for the person to previously stored typing cadence data for the person further comprises using a t test that compares the typing cadence data for the person to previously stored typing cadence data for the person.
 6. The method of claim 1, wherein the keyboard further comprises a plurality of keys.
 7. The method of claim 6, wherein the keyboard is one of a keypad, a physical keyboard, a virtual keyboard and a keyboard displayed on a touchscreen.
 8. The method of claim 1 further comprising capturing, by a typing cadence component, the typical cadence data for a user.
 9. A system for authenticating a user using keyboard typing cadence, comprising: a typing cadence component that captures typing cadence data for a keyboard used by a person, the typing data including a plurality of pieces of key event data, each piece of key event data comprising an elapsed time between when a key is pressed and the same key is released during typing and an elapsed time between when a first key is pressed and a second different key is pressed during typing; and a backend component that processes the typing cadence data and authenticates the person by analyzing the typing cadence data for the person.
 10. The system of claim 9, wherein the backend component analyzes the typing cadence data for the person to generate an assessment about the authenticity of the person.
 11. The system of claim 9, wherein the typing cadence component is remote from the backend component.
 12. The system of claim 10, wherein the backend component compares the typing cadence data for the person to previously stored typing cadence data for the person.
 13. The system of claim 12, wherein the backend component uses a t test that compares the typing cadence data for the person to previously stored typing cadence data for the person.
 14. The system of claim 9, wherein the keyboard further comprises a plurality of keys.
 15. The system of claim 14, wherein the keyboard is one of a keypad, a physical keyboard, a virtual keyboard and a keyboard displayed on a touchscreen.
 16. The system of claim 9, wherein the typing cadence component is integrated into a keyboard. 